KR101366081B1 - Rotation device for rotating rotator without rotation shaft using multi-directional magnetic for educational purpose and whirlpool apparatus using it - Google Patents

Abstract

The present invention relates to a swirl device using a parabolic rotating device for rotating a rotating body without using a rotating shaft by using a multi-directional magnet, comprising: a housing having a partition wall; A rotation generating member accommodated in one side of the partition of the housing; A first multipolar magnet mounted on a rotation axis of the rotation generating member; A second multipolar magnet which rotates when the first multipolar magnet is rotated by the rotation generating member; Power supply means for providing rotational power to the rotation generating member; A propeller that rotates when the second cobbled magnet is rotated by the first cobbled magnet; A supporting member for rotatably fitting the second multi-directional magnet and the propeller to prevent their detachment; And a water tank which is watertightly closed and allows liquid stored therein when the second cobalt magnet is rotated by the first cobalt magnet to cause a vortex by the propeller, It is possible to completely seal the portion of the rotating shaft of the device, thereby preventing the failure of the device due to the leakage of the power supply means caused by the leakage of the liquid through the portion where the rotating shaft is mounted, It is possible to solve the troublesomeness of the operation.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and method for rotating a rotating body using a multi-directional magnet without a rotating shaft, and a swirl apparatus using the rotating shaft,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotating device used in a science or laboratory parish in a school or a laboratory and a vortex device using the same. More particularly, The present invention relates to a parabolic rotating device for rotating a rotating body without using a rotating shaft by using a multi-directional magnet that can rotate without rotating the rotating shaft connected to the rotating generating device, and a swirl device using the same.

In general, a rotating device for rotating a rotating member such as a propeller is widely used in scientific equipments for students used in schools or in laboratory equipment used in a general laboratory, and in particular, In order to carry out the experiment using the phenomenon, the rotating device is frequently used in the liquid.

That is, as shown in Fig. 1, a rotating device for generating a blowing or liquid vortex such as a propeller, which is generally used, includes a motor 2 for generating a rotational force, A propeller 7 mounted on a rotary shaft 4 of the motor 2 to rotate in accordance with rotation of the motor 2 to cause swirling of liquid; A bearing member 8 for supporting the bearing member 8 to bear the liquid in the water tank 1 and a bearing member 8 for holding the bearing member 8, And a sealing member (9) for preventing the sealing member

However, even if the sealing member 9 is provided between the rotating shaft 4 and the bearing member 8 in order to prevent leakage of the liquid contained in the water tank 1, The seal member 9 is worn or broken due to rotation of the seal member 4 and use of the seal member for a long period of time, causing leakage of the liquid, so that the liquid flows into the bearing member or the power transmitting member.

Therefore, the sealing member 9 may be troublesome to be frequently replaced in accordance with its wear or damage.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a swirl device which completely seals a portion of a rotary shaft of a vortex device using a liquid so as to prevent the device from malfunctioning due to leakage of the power supply device caused by leakage of liquid through a portion where the rotary shaft is mounted And more particularly, to a parabolic rotating device for rotating a rotating body without using a rotating shaft by using a multi-directional magnet and a swirl device using the same.

According to an aspect of the present invention, there is provided a diverting rotary device for rotating a rotary body without using a rotary shaft using a multi-directional magnet according to an embodiment of the present invention includes: a housing having a partition wall therein; A motor housed on one side of the partition of the housing; A first multipolar magnet mounted on a seating member and mounted on a rotating shaft of the motor; A second multivibrator magnet housed in a receiving portion where a magnetic force of the first multivibrator magnet on the other side of the housing is applied to the housing and rotated when the first multivibrator magnet is rotated by the motor; And power supply means for supplying rotational power to the motor.

A parabolic rotating device for rotating a rotating body without using a rotating shaft using a multi-directional magnet according to another embodiment of the present invention includes a housing having a partition wall therein; A motor housed on one side of the partition of the housing; A first multipolar magnet mounted on a seating member and mounted on a rotating shaft of the motor; A second multivibrator magnet housed in a receiving portion where a magnetic force of the first multivibrator magnet on the other side of the housing is applied to the housing and rotated when the first multivibrator magnet is rotated by the motor; A propeller mounted inside the second cobbled magnet and rotating when the second cobbled magnet is rotated by the first cobbled magnet; And power supply means for supplying rotational power to the motor.

A parabolic rotating device for rotating a rotating body without a rotating shaft using a coercive magnet according to another embodiment of the rotation generating device of the present invention includes a housing having a partition wall therein; A motor housed on one side of the partition of the housing; A first multipolar magnet mounted on a seating member and mounted on a rotating shaft of the motor; A second multivibrator magnet housed in a receiving portion where a magnetic force of the first multivibrator magnet on the other side of the housing is applied to the housing and rotated when the first multivibrator magnet is rotated by the motor; A propeller mounted inside the second cobbled magnet and rotating when the second cobbled magnet is rotated by the first cobbled magnet; A support member accommodated in a receiving portion on the other side of the partition of the housing and rotatably sandwiching the second multi-directional magnet and the propeller on an extension shaft protruding from the outer side to prevent their detachment; And power supply means for supplying rotational power to the motor.

A parabolic rotating device for rotating a rotating body without using a rotating shaft using a coarse magnet according to another embodiment of the present invention includes a housing having a partition wall therein; A spring member housed in one side of the partition of the housing; A first multipolar magnet mounted on a seating member and mounted on a rotary shaft of the first rotary member; A second multipolar magnet housed in a receiving portion where a magnetic force of the first multivibrator magnet on the other side of the housing of the housing is applied and rotated when the first multivibrator magnet is rotated by the first spiral member; A propeller mounted inside the second cobbled magnet and rotating when the second cobbled magnet is rotated by the first cobbled magnet; A support member accommodated in a receiving portion on the other side of the partition of the housing and rotatably sandwiching the second multi-directional magnet and the propeller on an extension shaft protruding from the outer side to prevent their detachment; And power supply means for supplying rotational power to the lap-winding member.

A vortex device using a parabolic rotating device for rotating a rotating body without a rotating shaft using a multi-directional magnet according to embodiments of the present invention includes: a housing having a partition wall therein; A rotation generating member accommodated in one side of the partition of the housing; A first multipolar magnet mounted on a seating member and mounted on a rotation axis of the rotation generating member; A second cobbled magnet received in a receiving portion of the first cobbled magnet on the other side of the housing and being rotated when the first cobbled magnet is rotated by the rotation generating member; A propeller mounted inside the second cobbled magnet and rotating when the second cobbled magnet is rotated by the first cobbled magnet; A support member accommodated in a receiving portion on the other side of the partition of the housing and rotatably sandwiching the second multi-directional magnet and the propeller on an extension shaft protruding from the outer side to prevent their detachment; Power supply means for providing rotational power to the rotation generating member; And an inlet is watertightly closed by the receiving member in a state in which the second multi-directional magnet and the propeller are accommodated, and when the second multi-directional magnet is rotated by the first multi- And a water tank for allowing the liquid to vortify by the propeller.

The diagonal rotating device according to the present invention and the whirlpool device using the same can completely seal the portion of the rotating shaft of the whirlpool device using liquid so that the leakage of the power supply means caused by the leakage of the liquid through the portion where the rotating shaft is mounted It is possible to prevent the device from being damaged due to the frequent replacement of the sealing device, and to solve the problem of the device use and the troublesome operation due to frequent replacement of the sealing device.

1 is a cross-sectional view showing a swirl device using a parabolic rotating device for rotating a rotating body without using a rotating shaft by using a conventional multi-directional magnet.
FIG. 2 is a cross-sectional view showing a parabolic rotating device for rotating a rotating body without using a rotating shaft by using a multi-directional magnet according to an embodiment of the present invention. FIG.
3 is a cross-sectional view showing a parabolic rotating device according to another embodiment of the present invention.
4 is a cross-sectional view showing a parabolic rotating device according to another embodiment of the present invention.
FIG. 5 is an exploded perspective view showing a vortex device using a parabolic rotating device for rotating a rotating body without using a rotating shaft by using a multi-directional magnet according to an embodiment of the present invention. FIG.
6 is an exploded perspective view showing a vortex device using a parabolic rotating device for rotating a rotating body without using a rotating shaft by using a multipolar magnet according to another embodiment of the present invention.
7 is a perspective view showing a whirling apparatus according to the present invention.
8 is a cross-sectional view of the swirl apparatus of Fig. 7;
FIG. 9 and FIG. 10 are perspective views showing an embodiment of a multi-directional magnet used in the rotating device according to the present invention,
11 is a perspective view showing an embodiment of the power supply means used in the rotating device according to the present invention,
12 is a sectional view of an embodiment of the power supply means of FIG. 11;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, preferred embodiments of a parabolic rotating device and a swirl device using the same will be described with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view illustrating a parabolic rotating device for rotating a rotating body without using a rotating shaft by using a multi-directional magnet according to an embodiment of the present invention. FIG. 3 is a perspective view of a parabolic rotating device according to another embodiment of the present invention. FIG. 4 is a cross-sectional view of a diagonal rotating device according to another embodiment of the present invention, FIG. 5 is a cross-sectional view of a diagonal magnet according to an embodiment of the present invention, FIG. 6 is an exploded perspective view showing a vortex device using a parabolic rotating device for rotating a rotating body without using a rotating shaft using a multi-directional magnet according to another embodiment of the present invention. 7 is a perspective view showing a swirl apparatus according to the present invention, FIG. 8 is a sectional view of the swirl apparatus of FIG. 7, and FIGS. 9 and 10 are cross- 11 is a perspective view showing an embodiment of the power supply means used in the rotating device according to the present invention, and FIG. 12 is a perspective view of the power supply means of FIG. 11, Sectional view of an embodiment of the present invention.

2, a parabolic rotating device for rotating a rotating body without using a rotating shaft using a coercive magnet according to an embodiment of the rotation generating device of the present invention includes a housing 10, a motor 20, The first coercive magnet 30, the second coercive magnet 40 and the power supply means.

The housing 10 is provided with a partition wall 13 having a predetermined thickness. The housing 10 accommodates the components of the rotating device as shown in FIGS. 11 and 12 and is mounted on the cradle 100 .

The motor 20 rotates the first cobbled magnet 30 connected to the rotation axis 25 of the housing 10 at one side of the partition 13 of the housing 10.

9 and 10, the first multi-directional magnet 30 is mounted on the seating member 35 and mounted on the rotary shaft 25 of the motor 20 as described above, One or more S-poles and one or more N-poles are formed together so as to have several orientations.

The second multi-directional magnet 40 rotates when the first multi-directional magnet 30 is rotated by the motor 20, and the second multi-directional magnet 40 is disposed on the other side of the partition 13 of the housing 10, And is accommodated in an area where the magnetic force of the magnet 30 is applied.

That is, the second multi-directional magnet 40 is accommodated in the accommodating portion 15 extended above the housing 10.

In addition, the second multi-directional magnet 40 has a plurality of orientations such that a plurality of polarities are formed on one magnet so as to correspond to the first multi-directional magnet 30.

Therefore, when the first cobalt magnet 30 is rotated by the rotation of the motor 20 and faces the other polarity of the second cobbled magnet 40 corresponding thereto, (40) is rotated.

In other words, when the first cobalt magnet 30 is rotated by the motor 20, when the S pole portion of the first cobalt magnet 30 and the S pole portion of the second cobbled magnet 40 located at the upper portion meet, The S pole of the multidirectional magnet 40 is displaced from the S pole of the first multivibrator magnet 30 and at the same time an attractive force is generated between the N pole of the first multiconductor magnet 30 And is rotated and coincided with the upper portion of the N pole of the first multi-directional magnet 30 by the pulling force.
As described above, the N pole of the first multivibrator magnet 30 and the S pole of the second multivibrator magnet 40 located at the upper portion of the first multivibrator magnet 30 are pulled to each other due to attraction force. However, The N pole of the first multivibrator magnet 30 deviates from the S pole of the second multivibrator magnet 40 and enters the N pole region at the same time when the first multivibrator magnet 30 is forcibly rotated The S pole of the second multivibrator magnet 40 tries to rotate together with the N pole of the rotating first multivibrator magnet 30 to maintain the attraction state and at the same time the N pole of the second multicurrency magnet 40 The S pole and the S pole of the first multipolar magnet 30 and the S pole and the S pole of the N pole and N pole of the first and second multipolar magnets 30 and 40, As the first cobbled magnet 30 rotates, the second cobalt magnets 40 are rotated in the opposite direction So that they rotate almost simultaneously.

At this time, the bottom surface of the second multi-directional magnet 40 is brought into close contact with the bottom surface of the receiving portion 15 to generate frictional force, but the attractive force of the first and second tribo magnets 30 and 40 overcomes the frictional resistance 2 coarse magnet 40 is rotated along the first coplanar magnet 30.

Since a partition wall 13 having a predetermined thickness is disposed between the first and second multivibrating magnets 30 and 40, a strong attraction force may not be generated. Therefore, the second multivibrator magnet 40 may not be the same as the number of rotations of the first multivibrator magnet 30.

As described above, according to the present invention, since a multi-directional magnet having N poles and S poles are used in one permanent magnet, if the first multi-directional magnet is rotated while the first and second multi-directional magnets are stacked, The attraction force and the repulsive force act simultaneously between the two copper-rich magnets, and the second copper-rich magnets located at the upper portion rotate together.

delete

delete

As described above, in the present invention, by using the two cushion magnets 30 and 40, the portion of the water tank 70 in the vortex generator to be described next and the portion for generating power and rotation can be completely separated from each other, The problem of leakage occurring due to the installation of the conventional rotary shaft 4 can be solved.

It is preferable that a plurality of protrusions 45 are provided on the upper portion of the second multivibrator magnet 40 and the protrusions 45 can be integrally formed with the second multiconductor magnet 40 .

Thus, the protrusion 45 formed in the second multivibrator magnet 40 allows rotation by allowing another separate device such as a rotation transmitting device to be attached thereto.

The power supply means serves to provide rotational power to the motor 20, and it may be installed inside or outside the housing 10.

As the power supply means, a commercial power supply and a battery are used, but it is also possible to use any one of the wind power supply 22 and the solar battery 24 as shown in Figs.

Power supply to the motor 20 by the power supply means is performed by a commercial power supply, a battery, and a switch 23 in the solar cell 24.

When the wind power is generated by the wind, the electric power is supplied to the electric lamp 21 by the power of the wind power source 22, so that it can be confirmed that the electric power is supplied.

3, a parabolic rotating device for rotating a rotating body without a rotating shaft using a coercive magnet according to another embodiment of the rotation generating device of the present invention includes a housing 10, a motor 20, A propeller 50 is additionally provided in addition to the first coercive magnet 30, the second coercive magnet 40 and the power supply means.

Here, the housing 10, the motor 20, the first multivibrator magnet 30, the second multivibrator magnet 40, and the power supply means constructed in the above embodiment will be briefly described, Will be described concretely.

The housing has a partition wall 13 having a predetermined thickness.

The motor 20 is accommodated in a lower portion of the housing 10 at one side of the partition wall 13.

The first multi-directional magnet 30 is seated on the seating member 35 and mounted on the rotary shaft 25 of the motor 20.

The second multi-directional magnet 40 is accommodated in the accommodating portion 15 which is the other side of the partition 13 of the housing 10, that is, the magnetic force of the first multi-directional magnet 30, So that the first coarse magnet 30 rotates at the same time as the first coarse magnet 30 rotates.

The propeller 50 is mounted inside the second multi-directional magnet 40 and rotates simultaneously when the second multi-directional magnet 40 is rotated by the first multi-directional magnet 30.

Here, the second multi-directional magnet 40 and the propeller 50 are fixed to the support shaft 17 protruding to the other side of the partition wall 13 of the housing 10 and then prevented from being separated by the bolts 55 So as to be vertically movable.

Accordingly, the rotation of the second cobbled magnet 40, which rotates in accordance with the operation of the motor 20, causes the first cobbled magnet 30 to rotate about the support shaft 17, And the upper surface of the partition wall (13).

The power supply means for providing the rotational power to the motor 20 is composed of a commercial power source, a battery, a wind power source 22, and a solar battery 24, and is installed inside and outside the housing 10.

4 and 5, a parabolic rotating device for rotating a rotating body without using a rotating shaft using a coercive magnet according to another embodiment of the rotation generating device of the present invention includes a housing 10, The support member 60 is additionally constituted in addition to the first coplanar magnet 20, the first coplanar magnet 30, the second coplanar magnet 40, the propeller 50 and the power supply means.

Here, as for the housing 10, the motor 20, the first cobbled magnet 30, the second cobbled magnet 40, the propeller 50 and the power supply means constructed in the embodiment and the other embodiment Hereinafter, only the supporting member 60 will be described in detail.

The housing 10 is provided with a partition wall 13 having a predetermined thickness. The housing 10 accommodates the components of the rotating apparatus and is mounted on the cradle 100.

The motor 20 is accommodated in a lower portion of the housing 10 at one side of the partition wall 13 so as to rotate the first cobbled magnet 30 connected to the rotation axis 25 thereof.

The first multi-directional magnet 30 is seated in the seating member 35 as described above and is mounted on the rotating shaft 25 and rotates. One or more S poles and one or more N poles So as to have several orientations.

The second multivibrator magnet 40 is rotated when the first multivibrator magnet 30 is rotated by the motor 20 and is rotated by the rotation of the first multivibrator magnet 30 in the housing 10 on the other side of the partition wall 13, 1 < / RTI >

In addition, the second multi-directional magnet 40 has a plurality of orientations such that a plurality of polarities are formed on one magnet so as to correspond to the first multi-directional magnet 30.

The propeller 50 is mounted on the support shaft 17 protruding to the other side of the partition wall 13 of the housing 10 by mounting the second multi-directional magnet 40 therein so as to be prevented from being separated by the bolts 55 And is fixed so as to be vertically movable up and down so that the first cobbled magnet (30) simultaneously rotates when the second cobbled magnet (40) rotates.

The support member 60 is coupled with the second multi-directional magnet 40 and rotates while acting as a pedestal. The support member 60 is rotated by the magnetic force with the first multi-directional magnet 30, (15), but is detachably coupled.

Here, the thickness of the receiving member 60 is set such that when the second cobbled magnet 40 is laid on the top of the first cobbled magnet 30, It is preferable that the multi-directional magnet 40 is configured to be rotatable.

In addition, it is preferable that the thickness of the receiving member 60 is set in consideration of the thickness of the partition wall 13 of the housing 10.

The second multifunctional magnet 40 and the receiving member 60 are coupled to each other by an extension shaft 63. The upper end of the extension shaft 63 extends from the receiving member 60 to the second multi- 40 are provided on the rear surface of the base member 40. [

Therefore, since the second polygonal magnet 40 coupled to the receiving member 60 is tightly coupled by the extension shaft 63 and the hook 65, rotation of the first polygonal magnet 30 by rotation It is possible to prevent the mutual departure due to the centrifugal force generated at the time of the centrifugal force.

The power supply means serves to provide rotational power to the motor 20. The power supply means is installed inside and outside the housing 10 and includes any one of a commercial power source, a battery, a wind power source 22 and a solar battery 24 It is possible to use.

6, a parabolic rotating device for rotating a rotating body without a rotating shaft using a coercive magnet according to an embodiment of another rotating generating device of the present invention includes a housing 10, a first rotating member 200, The first coplanar magnet 30, the second coplanar magnet 40, the propeller 50, the bearing member 60, and the power supply means.

Here, among the elements of the diagonal rotating device according to the embodiment of the other rotation generating apparatus of the present invention, the housing 10, the first cobbled magnet 30, the second cobbled magnet 40, the propeller 50, The support member 60 is the same as that of the above-described embodiment of the rotation generating apparatus, and will be briefly described here, and only the winding member 200 and the power supply means will be discussed in detail.

The housing 10 has a partition wall 13 therein and accommodates all the components and is installed in the cradle 100.

The winding unit 200 is installed to be housed in a lower portion of one side of the partition wall 13 of the housing 10, and is formed of a plurality of layers of steel and is coupled to the rotating shaft 25.

That is, when the first winding member 200 is pulled by externally applying a force, the first winding member 200 is released, and when the pulling force is released, the first winding member 200 is wound through the original restoring force and simultaneously the rotating shaft 25 rotates.

At this time, the first multi-directional magnet 30 coupled to the rotation shaft 25 also rotates simultaneously.

The second multivibrator magnet 40 is accommodated in the accommodating portion 15 where the magnetic force of the first multivibrator magnet 30 on the upper side of the partition wall 13 of the housing 10 is applied, Thereby rotating when the first multipolar magnet 30 rotates.

The propeller 50 is fitted in the extension shaft 63 protruding to the upper portion of the support member 60 by inserting the second multidirectional magnet 40 therein and is fixed so as to be prevented from being separated by the hook 65, So that it is simultaneously rotated when the second cobbled magnet 40 is rotated by the first coving magnet 30.

The support member 60 is coupled with the second multi-directional magnet 40 and rotates while acting as a pedestal.

The support member 500 is configured such that when the second cobbled magnet 40 is installed on the top of the first cobbled magnet 30 as described above, It is preferable to consider the thickness of the partition wall 13 and the thickness at which the multilayer magnet 40 can be rotated.

The power supply means serves to provide a rotational power to the lavatory member 200 and includes a string 220 coupled with the lavatory member 200 and a ring link 220 coupled to one end of the string 220. [ (240).

Accordingly, when the user pulls the ring ring 240 and pulls it, the spring member 200 connected to the string 220 is released. When the ring ring 240 is placed, the spring member 200 is wound to the original position, (25) is rotated.

5 to 8, the inventors of the present invention have developed a diagonal rotating device for rotating a rotating body without using a rotating shaft by using the multi-directional magnet according to the above-described embodiments of the present invention, Device, and its embodiment is as follows.

That is, the apparatus using the vortex according to the present invention includes a housing 10 having a partition 13 therein and a motor 20 or a spring 200 housed in one side of the partition 13 of the housing 10 A first multipolar magnet 30 mounted on a rotary shaft 25 of the rotation generating member and a second magnetic field generating unit 30 for generating a magnetic field of the first multipolar magnet 30 on the other side of the housing 10, A second cobalt magnet (40) accommodated in the rotation generating member and rotated when the first cobbling magnet (30) is rotated by the rotation generating member, power supply means for providing rotational power to the rotation generating member, A propeller 50 mounted inside the housing 10 and rotating when the second multivibrator magnet 40 is rotated by the first multivibrator magnet 30, 13) A second multi-directional magnet (40) and a propeller (50) are housed in the accommodating portion (15) on the other side and provided on an extension shaft (63) And the inlet is sealed in a watertight manner by the receiving member 60 in a state in which the receiving member 60 for preventing the detachment of the second multi-directional magnet 40 and the propeller 50 is inserted therein And a water tank 70 for allowing the liquid stored therein to cause a vortex by the propeller 50 when the second multipolar magnet 40 rotates by the first cofferdam magnet 30.

The sealing member 80 is fitted to the contact portion between the receiving member 60 and the water tub 70 so that water tightness can be maintained. Thus, water tightness to the rotation generating device and the power supplying means is made stronger.

The second polygonal magnet 40 and the propeller 50 are coupled to the bearing member 60 by an extension shaft 63 as shown in embodiments of the present invention, And a hook 65 capable of preventing the detachment of the second multi-directional magnet 40 and the propeller 50 from the upper end thereof.

It is preferable that the power supply means use any one of the rotational power of the commercial power source, the battery, the wind power source 22, the solar battery 24 and the lap-winding member 200, as shown in the embodiments of the present invention.

Therefore, in order to cause the user to swirl the liquid such as water contained in the water tank 70, first, the rotation generating device of the motor 20 or the laydown member 200 is operated.

When the rotation generating apparatus is activated, the first coarse magnet 30 is rotated, and at the same time, the propeller 50 immersed in the water in the second coarse magnet 40 and the handkerchief 70 is rotated.

When the propeller 50 is rotated, a swirling phenomenon occurs in the water in the water tub 70 as shown in FIGS. 8 and 12.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the scope of the appended claims. It will be understood by those skilled in the art that various modifications may be made and equivalents may be resorted to without departing from the scope of the appended claims.

10: housing 13: partition wall
15: accommodating portion 17: support shaft
100: Cradle 20: Motor
21: light 22: wind power
23: switch 24: solar battery
25: rotating shaft 200: spring-loaded member
220: string 240: ring ring
30: first multipolar magnet 35: seating member
40: second coplanar magnet 45: projection
50: Propeller 55: Bolt
60: Support member 63:
65: hook 70: aquarium
80: sealing member

Claims (17)

delete delete delete delete delete delete delete delete delete delete delete delete delete A housing (10) having a partition (13) therein;
A rotation generating member housed in one side of the partition 13 of the housing 10;
A first multipolar magnet (30) which is seated on the seating member (35) and mounted on the rotation axis (25) of the rotation generating member;
(15) accommodated in the accommodating portion (15) by the magnetic force of the first multivibrator magnet (30) on the other side of the partition wall of the housing (10), and when the first multivibrator magnet A second coplanar magnet (40);
A propeller (50) mounted inside the second cobbled magnet (40) and rotating when the second cobbled magnet (40) is rotated by the first cobbled magnet (30);
The second cobalt magnet 40 and the propeller 50 are rotatably supported on an extension shaft 63 which is accommodated in a receiving portion 15 on the other side of the partition wall 13 of the housing 10 and projects to the outer side A support member (60) for preventing disengagement of these members;
Power supply means for providing rotational power to the rotation generating member; And
The entrance is closed by the support member 60 watertightly while the second cobalt magnet 40 and the propeller 50 are accommodated therein and the first cobalt magnet 40 and the propeller 50 are closed by the first cobalt magnet 30, And a water tank (70) for allowing the liquid stored therein to cause a vortex by the propeller (50) when the two diaphragm magnets (40) rotate,
A sealing member (80) is inserted into the contact surface between the receiving member (60) and the water tub (70) so that the watertightness can be maintained. In order to rotate the rotating body without using the rotating shaft Swirl device using a parabolic rotating device.
delete 15. The vortex swing device according to claim 14, wherein the rotation generating member is a motor (20) or a spring-loaded member (200), and uses the diagonal magnet to rotate the rotor without a rotary shaft.
The power supply unit according to claim 14, wherein the power supply unit uses any one of rotational power of a commercial power source, a battery, a wind power source (22), a solar battery (24) Wherein the swivel device includes a diagonal rotating device for rotating the rotating body.

Images